Change in maternal environment induced by cross-fostering alters genetic and epigenetic effects on complex traits in mice

Abstract

The interaction between maternally provided environment and offspring genotype is a major determinant of offspring development and fitness in many organisms. Recent research has demonstrated that not only genetic effects, but also epigenetic effects may be subject to modifications by the maternal environment. Genomic imprinting resulting in parent-of-origin-dependent gene expression is among the best studied of epigenetic effects. However, very little is known about the degree to which genomic imprinting effects can be modulated by the maternally provided environment, which has important implications for phenotypic plasticity. In this study, we investigated this unresolved question using a cross-fostering design in which mouse pups were nursed by either their own or an unrelated mother. We scanned the entire genome to search for quantitative trait loci whose effects depend on cross-fostering and detected 10 of such loci. Of the 10 loci, 4 showed imprinting by cross-foster interactions. In most cases, the interaction effect was due to the presence of an effect in either cross-fostered or non-cross-fostered animals. Our results demonstrate that genomic imprinting effects may often be modified by the maternal environment and that such interactions can impact key fitness-related traits suggesting a greater plasticity of genomic imprinting than previously assumed.

Figure 1.

Changes in effects of loci associated with cross-fostering. Imprinting by cross-fostering interaction for week 5 body weight at Xf10.1. In black are given the phenotypic values for cross-fostered animals while the white bars refer to non-cross-fostered animals; the first allele of a genotype is paternally derived and the second is maternally derived. Shown are the mean trait values with their standard errors (SE).